BIBLIOGRAFIA
[1] Rosati E. Studio dei limiti nella simulazione di interazioni fisiche con oggetti virtuali tramite interfacce aptiche passive. Tesi di Laurea in Ingegneria Meccanica, Pisa, Italia 7 Maggio 2003.
[2] Rubbera G.,Vinetti D. Analisi teorica e definizione di una procedura per la progettazione di freni elettromeccanici modulabili per sistemi di interfaccia avanzati. Tesi di Laurea in Ingegneria Meccanica, Pisa, Italia.
[3] Matthew Robert Reed. Development of an improved dissipative passive haptic dispaly.
Thesis, Georgia Institute of Technology, November 2003.
[4] F. Salsedo, A. Dettori, M. Bergamasco, M. Franceschini, A. Frisoli, F. Rocchi . PCT/IB02/05664 Exoskeleton interface apparatus. (Patent Pending, 31/12/2002)
[5] Seval Genç. Synthesis and properties of Magnetorheological (MR) fluids. University of Pittsburgh, 2002.
[6] Keith D. Weiss, Theodore G. Duclos. J. David Carlson, Michael J. Chrzan. High Strength Magneto-and Electro-rheological Fluids.
[7] D.W. Felt, M. Hagenbuchle, J. Liu. Rheology of a Magnetorheological Fluid. Journal of Intelligent Material systems and structures, Vol. 7 September 1996.
[8] J. Popplewell, R.E. Rosensweig. Magnetorheological fluid composites. Exxon Research and Engineering Company, 23 January 1996.
[9] H.V. Ly, F. Reitich, M.R. Jolly, H.T. Banks, Kazi Ito. Simulations of particle dynamics in Magnetorheological fluids. February 3, 1999.
[10] J. David Carlson. What makes a good MR Fluids?. Presented at the 8 International Conference on Electrorheological (ER) Fluids and Magnetorheological (MR) Suspensions, Nice, July 2001
[11] J. David Carlson. Magnetorheological fluids- ready for real-time motion control.
Lord Corporation, Materials Division.
[12] J. David Carlson. Properties and Applications of Commercial Magnetorheological fluids.
Lord Corporation, Materials Division.
[13] J. David Carlson. Designing with MR fluids. Engineering note. Lord Corporation, Materials Division.
[14] J. David Carlson. Magnetic Circuit Design. Engineering note. Lord Corporation, Materials Division.
[15] J. David Carlson. Permanet-Electromagnet Systems Engineering note. Lord Corporation, Materials Division.
[16] J. David Carlson. PTC/US97/08853 Magnetorheological fluid brake. Lord Corporation [17] Douglas W. Dietrich. Magnetically Soft Materials. Carpenter Technology Corporation.
[18] Masamichi Sakaguchi, Junji Furusho. Development of 2 DOF display System using ER actuators. International Conference on Advanced Intelligent Mechatronics. September 1999.
[19] D. Lampe. MRF-Clutch- Design considerations and performance. Dresden University of Technology, Germany.
[20] D. Lampe. Transitional and State behaviour of a Magnetorheological clutch. Dresden University of Technology, Germany.
[21] B.M. Kavicoglu, F. Gordaninejad, Y. Liu. A high-torque magnetorheological fluids clutch. Composite and Intelligent Materials Laboratory University of Nevada.
[22] Naoyuki Takesue, Junji Furusho, Masamichi Sakagusci. Development and experiments of actuator using MR fluid. Department of Computer-Controlled Mechanical Systems, Osaka University.
[23] Naoyuki Takesue, Junji Furusho, Masamichi Sakagusci. Improvement of response properties of MR-fluids actuator by torque feedback. Department of Computer-Controlled Mechanical Systems, Osaka University.
[24] W.H. Li, H. Du, N.Q. Guo, P.B. Kosasih. Magnetorheological fluids based haptic device.
Sensor Review Volume 24 - Number 1 – 2004.
[25] Faramarz Gordaninejad, Darrell G. Bresse. Heating of Magnetorheological fluids dampers. Composite and Intelligent Materials Laboratory University of Nevada.
[26] T. M. York, C. D. Gilmore, T. G. Libertiny. Magnetorheological joint ( US 5,848,678).
GSE, Farmington Hills.
[27] Gopalswamy, Swaminathan, Jones, Gary Lee. Magnetorheological clutch (US 5,954,245) General Motors Corporation, Detroit.
[28] P.B. Usuro, A.L. Smith e Chi-Kuan Kao. Magnetorheological fluid clutch (US,6,318,531). General Motors Corporation, Detroit.
